This is one hell of a (good!) question in Astrophysics (or even just in regular Physics for that matter!):
"Can a Black Hole suck in another Black Hole?"
And what happens, if they do?
If a single Black-Hole inverts Space-Time (and I'm not saying it does, and I'm not saying it doesn't!), then what happens when you put one inverter of Space-Time -- next to another?
Does the inverter add to the inversion -- or cancel it out?
?
(Side note here: In the above example, if it turns out to be a cancel, then that's a violation of Math's time-honored and cherished "1 + 1 = 2" law, because in that case "1 + 1 = 0" (!) (A scary thought, to be sure! <g>)... but that's a side philsophical discussion!)
That is, does the inverter invert the other inverter?
?
You see, that one, in theory, could go a number of different ways...
That is, if Black Holes have polarities along an axis, the way planets have magnetic fields along an axis which gives the magnetic north and south poles of a planet -- well, if so, then it might make a difference (for the above question!) -- as to how the Black Holes in question are oriented with respect to that axis!
Of course, if there is no such axis -- that is, no axis along which particularly concentrated magnetism, gravity, or other force ran, then Black Hole orientation -- probably wouldn't make much of a difference...
I can't honestly figure out what would happen...
But, it's one hell of a great question in Astrophysics, isn't it?
"Can a Black Hole suck in another Black Hole?"
And what happens, if they do?
If a single Black-Hole inverts Space-Time (and I'm not saying it does, and I'm not saying it doesn't!), then what happens when you put one inverter of Space-Time -- next to another?
Does the inverter add to the inversion -- or cancel it out?
?
(Side note here: In the above example, if it turns out to be a cancel, then that's a violation of Math's time-honored and cherished "1 + 1 = 2" law, because in that case "1 + 1 = 0" (!) (A scary thought, to be sure! <g>)... but that's a side philsophical discussion!)
That is, does the inverter invert the other inverter?
?
You see, that one, in theory, could go a number of different ways...
That is, if Black Holes have polarities along an axis, the way planets have magnetic fields along an axis which gives the magnetic north and south poles of a planet -- well, if so, then it might make a difference (for the above question!) -- as to how the Black Holes in question are oriented with respect to that axis!
Of course, if there is no such axis -- that is, no axis along which particularly concentrated magnetism, gravity, or other force ran, then Black Hole orientation -- probably wouldn't make much of a difference...
I can't honestly figure out what would happen...
But, it's one hell of a great question in Astrophysics, isn't it?
And it was asked by a kid, no less!